KR100288595B1 - How to defrost the refrigerator - Google Patents

Abstract

The present invention provides a freezing circulation fan for cold air circulation of the freezer compartment, a refrigeration circulation fan for cold air circulation of the refrigerating compartment, a cooler for lowering the temperature of the cold air circulated by the circulation fan, and dissolving the frost stuck in the cooler. A defrosting method in a refrigerator having a heater for detecting a temperature of the cooler and a defrosting sensor for detecting a temperature of the cooler, in particular, a freezing circulation fan for cold air circulation of a freezer compartment, a refrigeration circulation fan for cold air circulation of a refrigerating compartment, and A defrosting method in a refrigerator provided with a cooler for lowering the temperature of cold air circulated by a circulation fan, a heater for melting and eliminating frost trapped in the cooler, and a defrost sensor for detecting a temperature of the cooler; A first step of stopping the driving of the cooler when it is determined that the defrost time is reached; A second step of driving only the refrigerating circulation fan after the first step and detecting a temperature of the cooler to determine whether the coolant rises above a first threshold temperature which is a maximum temperature before the frost phase changes; If it is determined through the second step that the temperature of the cooler has risen above the first critical temperature, the heater is driven and the temperature of the cooler is detected so that frost-melted water or residual ice of the cooler does not remain. A third step of determining whether the temperature rises above the second threshold temperature and a fourth step of turning off the heater and performing a normal operation of the refrigerator when it is determined that the temperature of the cooler has risen above the second threshold temperature through the third step; When providing a defrosting method of the refrigerator, characterized in that when storing food with a lot of moisture, such as the summer season, the frost is formed around the cooler quickly, the cooling efficiency is lowered, thereby increasing the operating time of the cooler because of the power The problem of increased consumption can be solved even by using low-power heater. A.

Description

Defrosting method of refrigerator

The present invention relates to a cold air circulation method of the refrigerator, and in particular, does not drive the cooler to use the low-power heater 10 without using the high-power heater 10 to remove frost generated in the cooler provided on the refrigerator compartment side. The present invention relates to a defrosting method in which only the air in the refrigerating compartment is circulated to the cooler side to raise the temperature of the frost formed in the cooler to a predetermined temperature and then defrost using the low-efficiency heater 10.

In general, the refrigerator forms an internal cooling structure as shown in FIG. 1, which includes an evaporator 3 that cools the surrounding air by a circulation process of a refrigerant (not shown), and the evaporator ( The fan 2 which blows the air cooled by 3) and forcibly circulates to the freezer compartment 1 and the refrigerator compartment 6-8 side, and the cooling air forcibly blown by the said fan 2 to the refrigerator compartment 6-8 side. In order to distribute air between the cold air circulation cylinder 5A and the inside of the refrigerating chamber 6-8 and the cold air circulation cylinder 5A, which are connected to both sides of the housing and the rear surface of the refrigerator compartment 6-8, It consists of a cold air discharge port 5 for blowing the cooling air delivered through the cold air circulation cylinder (5A) into the refrigerating chamber (6-8).

Looking at the cold air circulation process by the internal cooling structure of the refrigerator configured as described above, the cold air generated in the evaporator (3) is circulated by the fan (2) to the freezer compartment (1) and the refrigerating chamber (6 to 8), the temperature in the refrigerator In the refrigerator compartment along the cold air circulation cylinder 5A in which cold air generated in the evaporator 3 and discharged by the fan 2 is installed in the refrigerator compartments 6-8. In the direction of the arrow.

That is, the cold air discharged through the cold air discharge ports 5 formed on the three surfaces of the refrigerating chambers 6 to 8 is returned to the evaporator 3 side by the cold air intake port (not given the reference number), recooled, and then described above. The cycling process as described above will be redone.

Therefore, according to the circulation structure of the cold air as described above, the freezer compartment 1 and the refrigerating compartments 6 to 8 maintain a specific temperature for each part, but the refrigerating compartment 1 maintains a state of about -19 ° C. In the refrigerating chamber, the flavor cold chamber (8: used for storing fish or meat) close to the freezing chamber 1 is maintained at approximately -1 ° C to 1 ° C. In addition, the vegetable chamber 6 maintains 2 ° C to 3 ° C, and the other part of the refrigerating chamber, that is, the food chamber 7, maintains about 1 ° C to 3 ° C.

The cold air circulation method as described above is referred to as intercooling. In the intercooled refrigerator described above, the cooler is driven to lower the temperature of the circulating cold air. Therefore, the frost is trapped around the cooler. Will drive you crazy.

Therefore, the refrigerator typically stops the cooler at regular intervals and drives a heater 10 formed around the cooler to perform a series of processes for melting and removing frost around the cooler.

During the defrosting operation as described above, the cold air circulation is stopped to increase the temperature of the refrigerating chamber and the power of the cooler is partially higher than necessary to consume unnecessary power. Therefore, the above-mentioned phenomenon often causes the defrosting operation, and when storing food with a lot of moisture, such as summer, frost quickly forms around the cooler, resulting in a decrease in cooling efficiency. The problem is that the power consumption increases because it is longer.

An object of the present invention for solving the above problems is to stop the operation of the cooler when the defrosting time is reached, the blower is operated to circulate the cold air around the cooler maintained at a temperature of approximately -1 ℃ to 2 ℃ existing in the refrigerator compartment It is to provide a defrosting method of a refrigerator in which the temperature of the frost sandwiched in the cooler is raised to approximately 0 ° C. and then the frost is melted using the low output heater 10.

1 is a side cross-sectional view illustrating a cold air circulation process in a conventional refrigerator

2 is an operation flowchart of a defrosting method of a refrigerator according to the present invention.

<Explanation of symbols for main parts of drawing>

1: freezer 2: fan

3: evaporator 4: precooler

5: cold air discharge port 5A: cold air circulation cylinder

6: vegetable room 7: food room

8: taste cold room 10: heater

Features of the present invention for achieving the above object, a freezing circulation fan for cold air circulation of the freezer compartment, a refrigeration circulation fan for cold air circulation of the refrigerating compartment, a cooler for lowering the temperature of the cold air circulated by the circulation fan, In the defrosting method in a refrigerator provided with the heater 10 for melt | dissolving and eliminating frost stuck in the said cooler, and the defrost sensor which detects the temperature of the said cooler,

A refrigeration circulation fan for cold air circulation of the freezer compartment, a refrigeration circulation fan for cold air circulation of the refrigerating compartment, a cooler for lowering the temperature of the cold air circulated by the circulation fan, a heater for melting and eliminating frost caught in the cooler, And a defrost sensor for detecting a temperature of the cooler;

A first step of stopping the driving of the cooler when it is determined that the defrost time is reached;

A second step of driving only the refrigerating circulation fan after the first step and detecting a temperature of the cooler to determine whether the temperature rises above a first threshold temperature which is a maximum temperature before the frost of the cooler changes phase;

If it is determined through the second step that the temperature of the cooler has risen above the first critical temperature, the heater is driven and the temperature of the cooler is detected so that frost-melted water or residual ice of the cooler does not remain. A third step of determining whether the temperature rises above the second threshold temperature; And

And a fourth step of turning off the heater and performing a normal operation of the refrigerator when it is determined through the third step that the temperature of the cooler has risen above the second threshold temperature.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

2 is a flowchart illustrating a defrosting method of the refrigerator according to the present invention.

When the power is input in step S101, the timer provided is initialized, and the flow proceeds to step S102 to count the elapsed time. In step S103, it is determined whether the defrost operation requires a threshold time (e.g., 10 hours) and the defrost operation is performed. If it is determined that the required threshold time has not elapsed, the process proceeds to step S104 and the process proceeds to step S102 again while performing the normal refrigerator operation.

If it is determined that the threshold time required for the defrosting operation has elapsed in step S103 while performing the normal refrigerator operation through the above operation, the flow proceeds to step S105 to stop the operation of the cooler.

Thereafter, while operating only the refrigerating chamber cold air circulation fan through the process of step S106, it is determined in step S107 whether the temperature detected by the defrost sensor rises to the first threshold temperature (for example, -1 to -0.5 ° C). The first threshold temperature is preferably set to a temperature (-1 to 0 ° C.) that can be raised to the maximum before the frost phase changes.

When the temperature detected by the defrost sensor in step S107 is a temperature lower than the first threshold temperature, the flow proceeds to step S106 to continuously operate only the refrigerating chamber cold air circulation fan. At this time, the reason for circulating only the cold air of the refrigerating compartment through the process of step S106 and step S107 is to increase the temperature of the frost to the level of the cold compartment cold air temperature because the cold air temperature of the refrigerating compartment maintains approximately -1 ℃ to 3 ℃, Therefore, the circulation fan for the freezer cold air circulation is not operating.

If the temperature detected by the defrost sensor in the step S107 is higher than the first threshold temperature while repeatedly performing the above process, the process proceeds to step S108 where a heater 10 of 50 W output (conventional heater 10 ) Output operates 150 ~ 200W). When the heater 10 is operated through the process of step S108, it is determined in step S109 whether the temperature detected by the defrost sensor rises above the second threshold temperature (for example, 9 ° C). At this time, the second critical temperature is set to a temperature (9 ° C. to 10 ° C.) at which no frost or dissolved ice remains in every corner of the evaporator. The reason is that all the water in the evaporator is discharged out of the drain.

If the detected temperature of the defrost sensor determined by the step S109 rises above the second threshold temperature (S110), the operation of the heater 10 is stopped (S110), the process proceeds to step S111 to initialize the timer, and then the step S104. Proceeds to perform the normal refrigerator operation.

When providing a defrosting method of the refrigerator according to the present invention that operates as described above to store a food with a lot of moisture, such as the summer season, frost is formed around the cooler quickly to reduce the cooling efficiency and thereby the operating time of the cooler Since it is longer, there is an effect that the problem of increasing power consumption can be solved even by using a low-power heater 10.

Claims (1)

Refrigeration circulation fan for cold air circulation in the freezer compartment, refrigeration circulation fan for cold air circulation in the refrigerating compartment, a cooler for lowering the temperature of cold air circulated by the circulation fan, and a heater for melting and eliminating frost caught in the cooler ( 10) and a defrosting method in a refrigerator provided with a defrost sensor for detecting a temperature of the cooler: A first step of stopping the driving of the cooler when it is determined that the defrost time is reached; A second step of driving only the refrigerating circulation fan after the first step and detecting a temperature of the cooler to determine whether the coolant rises above a first threshold temperature which is a maximum temperature before the frost phase changes; When it is determined that the temperature of the cooler has risen above the first critical temperature through the second step, the heater 10 is driven and the temperature of the cooler is detected to prevent the frosted water or residual ice from remaining in the cooler. A third step of determining whether the temperature rises above the second threshold temperature; And And a fourth step of turning off the heater and performing a normal operation of the refrigerator when it is determined through the third step that the temperature of the cooler has risen above the second threshold temperature.